317-4 Does Soil Aggregation Affect Carbon Sequestration in Restored Wetlands?.
Poster Number 2333
See more from this Division: S10 Wetland SoilsSee more from this Session: General Wetland Soils: II
Tuesday, October 23, 2012
Duke Energy Convention Center, Exhibit Hall AB, Level 1
Chronosequence studies suggest that soil properties (e.g., number of aggregates) in restored wetlands could take10s-100s of years to reach natural reference levels. Wetland soils store carbon by incorporating organic matter into soil macro-aggregates. These larger aggregates (> 2000 μm) will stabilize more carbon; thus, an understanding of how restoration affects aggregate size distribution has implications for estimating wetland carbon sequestration. We hypothesized that the conversion process of an agricultural field to a wetland would decrease macro-aggregates (> 2000 μm) producing smaller aggregates (250-2000 μm, 53-250 μm, and < 53 μm) due to the physical break down of larger aggregates during intensive earth moving. Aggregate separation was achieved by wet sieving subsamples of air-dried soil through a series of three sieves (2000 μm, 250 μm, and 53 μm). Topsoil disturbance during the construction phase resulted in a significant decrease in soil macro-aggregates (by 51%, P < 0.01). Aggregates in size classes 250-2000 μm, 53-250 μm, and < 53 μm were increased significantly (by 46%, P < 0.01; 33%, P < 0.01; and 67%, P < 0.01 respectively) in the post construction sampling. Reduced aggregation and increased numbers of smaller aggregates from construction disturbance may alter the pool of stable carbon formerly upheld by macro-aggregates and limit future carbon sequestering potential for restored wetlands.
See more from this Division: S10 Wetland SoilsSee more from this Session: General Wetland Soils: II